Beeats

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Inspiration

Beeats came when I was trying to make an automaton when I was 13. Then, eight years later, I started teaching industrial automation at a technical school and realized that I could use the same concept to improve electro-pneumatic systems to improve production processes on manufacturing lines. In 2103, I won a challenge offered by industries in the manufacturing sector. next year, I improved the concept of transforming into a smart device to manage electric and pneumatic energy and won another innovation challenge. Two years later I was approved to be sponsored by Samsung and made an IoT platform to help managers and operators intake decisions on production lines in the industry. I am now seeing the opportunity to open my project to help people in difficult living conditions. And now I'm adapting the project to transform it into low-cost ventilators. In addition, the ventilators are attached to an IoT platform to allow medical staff to track infected patients and operate machines without being in direct contact with the machines and patients. This could save lives and improve the safety of medical staff.

What it does

Beeats It is a life support platform implemented by a set of sensors and actuators that works as low-cost respirators and the machine interface. To provide a low cost compressed air generation and electricity management service. As well as providing real-time data to assist medical teams in decision-making, especially in pressurized environments, and to provide remote operation and control of machines to avoid the risks that infect them.

service

We offer a service to automate, control and supervise critical medical enviroments through a modular system capable of coupling to ventilators and other equipment for real-time operation and remote control. it also has its own compressed air generation and valve control system. In addition to sensors for the acquisition of critical data that can be processed by an artificial intelligence algorithm to help support decision making as well as machine control remotely.

product

Initiality the product was designed for control of pneumatic and electrical energy. As well as the measurement of variables such as: temperature, vibration and electric current to make machines worthy in real time. Now the product can have a high potential to be applied in environments that need remote access due to the high degree of infection.

How I built it

Esp32, C++, javascript, firebase, tensorflow, 3D printing, machining, p5js, processing.

Challenges I ran into

Design a 3D model capable of organizing all electronic components in the best possible way, design the electronic system, design the board layout, machine the printed circuit board, solder the components, board the sensors and actuators, Program the microcontrolled system, program the data processing platform, develop the mobile application, test and validate, do research with customers, work on the design of the presentation, Miniaturization and cost reduction

Accomplishments that I'm proud of

I am proud to have simplified a compressed air flow generation and control system in a simple system, reduced by an integrated controller. Basically, we transformed a complex electropnemic system with large dimensions and several connections with hoses in just one integrated controller that has sensors and sends data to a cloud platform.

What I learned

Control the variables of compressed air and electricity with a simplified system

What's next for Beeats

Develop a complete platform, containing: modular hardware, mobile software and web platform We offer a mechanical system for the generation and control of pneumatic and electrical energy, based on the combination of permanent magnets that replace complex control systems (relays, controllers and power systems). In addition to sensors for the acquisition of critical data that can be processed by an artificial intelligence algorithm to help support decision making as well as machine control remotely. Our mission is to provide intelligent sensors and actuators as a service to help people avoid the high costs of medical treatments, using simple and modular solutions. Mainly to help: medical units with few financial resources, therapy centers, remote communities

Built With

• 3dprinting
• altium
• c++
• esp32
• javascript
• machining